LM8261 Single RRIO, High Output Current & Unlimited Cap Load Op Amp in SOT23-5
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1 LM8261 Single RRIO, High Output Current & Unlimited Cap Load Op Amp in SOT23-5 General Description The LM8261 is a Rail-to-Rail input and output Op Amp which can operate with a wide supply voltage range. This device has high output current drive, greater than Rail-to-Rail input common mode voltage range, unlimited capacitive load drive capability, and provides tested and guaranteed high speed and slew rate while requiring only 0.97mA supply current. It is specifically designed to handle the requirements of flat panel TFT panel V COM driver applications as well as being suitable for other low power, and medium speed applications which require ease of use and enhanced performance over existing devices. Greater than Rail-to-Rail input common mode voltage range with 50dB of Common Mode Rejection, allows high side and low side sensing, among many applications, without having any concerns over exceeding the range and no compromise in accuracy. Exceptionally wide operating supply voltage range of 2.5V to 30V alleviates any concerns over functionality under extreme conditions and offers flexibility of use in multitude of applications. In addition, most device parameters are insensitive to power supply variations; this design enhancement is yet another step in simplifying its usage. The output stage has low distortion (0.05% THD+N) and can supply a respectable amount of current (15mA) with imal headroom from either rail (300mV). Output Response with Heavy Capacitive Load Ordering Information The LM8261 is offered in the space saving SOT23-5 package. Features (V S =5V,T A = 25 C, Typical values unless specified). n GBWP 21MHz n Wide supply voltage range 2.5V to 30V n Slew rate 12V/µs n Supply current 0.97 ma n Cap load limit Unlimited n Output short circuit current +53mA/ 75mA n ±5% Settling time 400ns (500pF, 100mV PP step) n Input common mode voltage 0.3V beyond rails n Input voltage noise 15nV/ n Input current noise 1pA/ n THD+N < 0.05% Applications n TFT-LCD flat panel V COM driver n A/D converter buffer n High side/low side sensing n Headphone amplifier Connection Diagram SOT23-5 Top View Package Ordering Info Pkg Marking Supplied As NSC Drawing 5-Pin SOT-23 LM8261M5 LM8261M5X A45A 1k Units Tape and Reel 3k Units Tape and Reel April 2006 MF05A LM8261 Single RRIO, High Output Current & Unlimited Cap Load Op Amp in SOT National Semiconductor Corporation DS
2 LM8261 Absolute Maximum Ratings (Note 1) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. ESD Tolerance Human Body Model 2KV (Note 2) Machine Model 200V(Note 9) V IN Differential +/ 10V Output Short Circuit Duration (Notes 3, 11) Supply Voltage (V + -V ) 32V Voltage at Input/Output pins V V, V 0.1V Storage Temperature Range 65 C to +150 C Junction Temperature (Note 4) +150 C Soldering Information: Infrared or Convection (20 sec.) 235 C Wave Soldering (10 sec.) 260 C Operating Ratings Supply Voltage (V + -V ) 2.5V to 30V Temperature Range(Note 4) 40 C to +85 C Package Thermal Resistance, θ JA,(Note 4) SOT C/W 2.7V Electrical Characteristics (Note 13) Unless otherwise specified, all limits guaranteed for T A = 25 C, V + = 2.7V, V = 0V, V CM = 0.5V, V O =V + /2, and R L > 1MΩ to V. Boldface limits apply at the temperature extremes. Symbol Parameter Condition Typ (Note 5) Limit (Note 6) V OS Input Offset Voltage V CM =0.5V&V CM = 2.2V +/ 0.7 +/ 5 +/ 7 TC V OS Input Offset Average Drift V CM =0.5V&V CM = 2.2V (Note 12) I B Input Bias Current V CM = 0.5V (Note 7) V CM = 2.2V (Note 7) Units mv +/ 2 µv/c µa I OS Input Offset Current V CM =0.5V&V CM = 2.2V CMRR Common Mode Rejection Ratio V CM stepped from 0V to 1.0V PSRR CMVR Positive Power Supply Rejection Ratio Input Common-Mode Voltage Range V CM stepped from 1.7V to 2.7V 100 V CM stepped from 0V to 2.7V V + = 2.7V to 5V CMRR > 50dB A VOL Large Signal Voltage Gain V O = 0.5 to 2.2V, R L = 10K to V 67 V O = 0.5 to 2.2V, R L =2KtoV 63 V O Output Swing High Output Swing Low I SC Output Short Circuit Current Sourcing to V V ID = 200mV (Note 10) Sinking to V + V ID = 200mV (Note 10) na db db V V db db R L = 10K to V V R L =2KtoV R L = 10K to V mv ma ma 2
3 2.7V Electrical Characteristics (Note 13) (Continued) Unless otherwise specified, all limits guaranteed for T A = 25 C, V + = 2.7V, V = 0V, V CM = 0.5V, V O =V + /2, and R L > 1MΩ to V. Boldface limits apply at the temperature extremes. LM8261 Symbol Parameter Condition Typ (Note 5) Limit (Note 6) I S Supply Current No load, V CM = 0.5V SR Slew Rate (Note 8) A V = +1,V I =2V PP 9 V/µs f u Unity Gain-Frequency V I = 10mV, R L =2KΩ to V + /2 10 MHz GBWP Gain Bandwidth Product f = 50KHz Phi m Phase Margin V I = 10mV 50 Deg e n Input-Referred Voltage Noise f = 2KHz, R S =50Ω 15 nv/ Units ma MHz i n Input-Referred Current Noise f = 2KHz 1 pa/ f MAX Full Power Bandwidth Z L = (20pF 10KΩ) tov + /2 1 MHz 5V Electrical Characteristics (Note 13) Unless otherwise specified, all limited guaranteed for T A = 25 C, V + = 5V, V = 0V, V CM = 1V, V O =V + /2, and R L > 1MΩ to V. Boldface limits apply at the temperature extremes. Symbol Parameter Condition Typ (Note 5) Limit (Note 6) V OS Input Offset Voltage V CM =1V&V CM = 4.5V +/ 0.7 +/ 5 +/ 7 TC V OS Input Offset Average Drift V CM =1V&V CM = 4.5V (Note 12) I B Input Bias Current V CM =1V (Note 7) V CM = 4.5V (Note 7) Units mv +/ 2 µv/ C µa I OS Input Offset Current V CM =1V&V CM = 4.5V CMRR Common Mode Rejection Ratio V CM stepped from 0V to 3.3V V CM stepped from 4V to 5V 100 V CM stepped from 0V to 5V PSRR Positive Power Supply Rejection Ratio V + = 2.7V to 5V, V CM = 0.5V CMVR Input Common-Mode Voltage Range CMRR > 50dB A VOL Large Signal Voltage Gain V O = 0.5 to 4.5V, R L = 10K to V 70 db V O = 0.5 to 4.5V, R L =2KtoV V O Output Swing High Output Swing Low na db db V V R L = 10K to V V R L =2KtoV R L = 10K to V mv 3
4 LM8261 5V Electrical Characteristics (Note 13) (Continued) Unless otherwise specified, all limited guaranteed for T A = 25 C, V + = 5V, V = 0V, V CM = 1V, V O =V + /2, and R L > 1MΩ to V. Boldface limits apply at the temperature extremes. Symbol Parameter Condition I SC Output Short Circuit Current Sourcing to V V ID = 200mV (Note 10) Sinking to V + V ID = 200mV (Note 10) Typ (Note 5) Limit (Note 6) Units ma I S Supply Current No load, V CM = 1V SR Slew Rate (Note 8) A V = +1, V I =5V PP f u Unity Gain Frequency V I = 10mV, R L =2KΩ to V + /2 GBWP Gain-Bandwidth Product f = 50KHz ma V/µs 10.5 MHz Phi m Phase Margin V I = 10mV 53 Deg e n Input-Referred Voltage Noise f = 2KHz, R S =50Ω 15 nv/ MHz i n Input-Referred Current Noise f = 2KHz 1 pa/ f MAX Full Power Bandwidth Z L = (20pF 10kΩ) tov + /2 900 KHz t S Settling Time (±5%) 100mV PP Step, 500pF load 400 ns THD+N Total Harmonic Distortion + Noise R L =1KΩ to V + /2 f = 10KHz to A V = +2, 4V PP swing 0.05 % ±15V Electrical Characteristics (Note 13) Unless otherwise specified, all limited guaranteed for T A = 25 C, V + = 15V, V = 15V, V CM = 0V, V O = 0V, and R L > 1MΩ to 0V. Boldface limits apply at the temperature extremes. Symbol Parameter Condition Typ (Note 5) Limit (Note 6) V OS Input Offset Voltage V CM = 14.5V & V CM = 14.5V +/ 0.7 +/ 7 +/ 9 TC V OS Input Offset Average Drift V CM = 14.5V & V CM = 14.5V (Note 12) I B Input Bias Current V CM = 14.5V (Note 7) V CM = 14.5V (Note 7) Units mv +/ 2 µv/ C µa I OS Input Offset Current V CM = 14.5V & V CM = 14.5V CMRR Common Mode Rejection Ratio V CM stepped from 15V to 13V V CM stepped from 14V to 15V 100 V CM stepped from 15V to 15V PSRR Positive Power Supply Rejection Ratio V + = 12V to 15V PSRR Negative Power Supply Rejection V = 12V to 15V Ratio 66 na db db db 4
5 ±15V Electrical Characteristics (Note 13) (Continued) Unless otherwise specified, all limited guaranteed for T A = 25 C, V + = 15V, V = 15V, V CM = 0V, V O = 0V, and R L > 1MΩ to 0V. Boldface limits apply at the temperature extremes. LM8261 Symbol Parameter Condition Typ (Note 5) Limit (Note 6) CMVR Input Common-Mode Voltage Range CMRR > 50dB A VOL Large Signal Voltage Gain V O =0Vto±13V, R L = 10KΩ V O Output Swing High Output Swing Low V O =0Vto±13V, R L =2KΩ I SC Output Short Circuit Current Sourcing to ground V ID = 200mV (Note 10) Units V V db R L = 10KΩ V R L =2KΩ R L = 10KΩ V R L =2KΩ Sinking to ground V ID = 200mV (Note 10) ma I S Supply Current No load, V CM = 0V SR Slew Rate (Note 8) A V = +1, V I = 24V PP f u Unity Gain Frequency V I = 10mV, R L =2KΩ 14 MHz GBWP Gain-Bandwidth Product f = 50KHz Phi m Phase Margin V I = 10mV 58 Deg e n Input-Referred Voltage Noise f = 2KHz, R S =50Ω 15 nv/ ma V/µs MHz i n Input-Referred Current Noise f = 2KHz 1 pa/ f MAX Full Power Bandwidth Z L = 20pF 10KΩ 160 KHz t s Settling Time (±1%, A V = +1) Positive Step, 5V PP 320 Negative Step, 5V PP 600 ns THD+N Total Harmonic Distortion +Noise R L =1KΩ, f = 10KHz, A V = +2, 28V PP swing 0.01 % Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Rating indicate conditions for which the device is intended to be functional, but specific performance is not guaranteed. For guaranteed specifications and the test conditions, see the Electrical Characteristics. Note 2: Human Body Model is 1.5kΩ in series with 100pF. Note 3: Applies to both single-supply and split-supply operation. Continuous short circuit operation at elevated ambient temperature can result in exceeding the imum allowed junction temperature of 150 C. Note 4: The imum power dissipation is a function of T J(), θ JA, and T A. The imum allowable power dissipation at any ambient temperature is P D =(T J(MAX) -T A )/ θ JA. All numbers apply for packages soldered directly onto a PC board. Note 5: Typical Values represent the most likely parametric norm. Note 6: All limits are guaranteed by testing or statistical analysis. Note 7: Positive current corresponds to current flowing into the device. Note 8: Slew rate is the slower of the rising and falling slew rates. Connected as a Voltage Follower. Note 9: Machine Model, 0Ω is series with 200pF. Note 10: Short circuit test is a momentary test. See Note 11. Note 11: Output short circuit duration is infinite for V S 6V at room temperature and below. For V S > 6V, allowable short circuit duration is 1.5ms. 5
6 LM8261 ±15V Electrical Characteristics (Note 13) (Continued) Note 12: Offset voltage average drift detered by dividing the change in V OS at temperature extremes into the total temperature change. Note 13: Electrical Table values apply only for factory testing conditions at the temperature indicated. Factory testing conditions result in very limited self-heating of the device such that T J =T A. No guarantee of parametric performance is indicated in the electrical tables under conditions of internal self heating where T J > T A. Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted V OS vs. V CM for 3 Representative Units V OS vs. V CM for 3 Representative Units V OS vs. V CM for 3 Representative Units V OS vs. V S for 3 Representative Units
7 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) V OS vs. V S for 3 Representative Units V OS vs. V S for 3 Representative Units LM I B vs. V CM I B vs. V S I S vs. V CM I S vs. V CM
8 LM8261 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) I S vs. V CM I S vs. V S (PNP side) I S vs. V S (NPN side) Gain/Phase vs. Frequency Unity Gain Frequency vs. V S Phase Margin vs. V S
9 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) Unity Gain Freq. and Phase Margin vs. V S Unity Gain Frequency vs. Load LM Phase Margin vs. Load Unity Gain Freq. and Phase Margin vs. C L CMRR vs. Frequency +PSRR vs. Frequency
10 LM8261 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) PSRR vs. Frequency Output Voltage vs. Output Sourcing Current Output Voltage vs. Output Sourcing Current Output Voltage vs. Output Sinking Current Max Output Swing vs. Load Max Output Swing vs. Frequency
11 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) % Overshoot vs. Cap Load ±5% Settling Time vs. Cap Load LM SR vs. Cap Load SR vs. Cap Load SR vs. Cap Load SR vs. Cap Load
12 LM8261 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) Settling Time vs. Error Voltage Settling Time vs. Error Voltage Input Noise Voltage/Current vs. Frequency Input Noise Voltage for Various V CM Input Noise Current for Various V CM Input Noise Voltage vs. V CM
13 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) Input Noise Current vs. V CM THD+N vs. Frequency LM THD+N vs. Frequency THD+N vs. Frequency THD+N vs. Amplitude THD+N vs. Amplitude
14 LM8261 Typical Performance Characteristics T A = 25 C, Unless Otherwise Noted (Continued) Small Signal Step Response Large Signal Step Response
15 Application Hints BLOCK DIAGRAM AND OPERATIONAL DESCRIPTION LM8261 A) Input Stage FIGURE 1. Simplified Schematic Diagram As can be seen from the simplified schematic in Figure 1, the input stage consists of two distinct differential pairs (Q1-Q2 and Q3-Q4) in order to accommodate the full Rail-to-Rail input common mode voltage range. The voltage drop across R5, R6, R7, and R8 is kept to less than 200mV in order to allow the input to exceed the supply rails. Q13 acts as a switch to steer current away from Q3-Q4 and into Q1-Q2, as the input increases beyond 1.4V of V +. This in turn shifts the signal path from the bottom stage differential pair to the top one and causes a subsequent increase in the supply current. In transitioning from one stage to another, certain input stage parameters (V OS,I b,i OS,e n, and i n ) are detered based on which differential pair is "on" at the time. Input Bias current, I B, will change in value and polarity as the input crosses the transition region. In addition, parameters such as PSRR and CMRR which involve the input offset voltage will also be effected by changes in V CM across the differential pair transition region. The input stage is protected with the combination of R9-R10 and D1, D2, D3, and D4 against differential input overvoltages. This fault condition could otherwise harm the differential pairs or cause offset voltage shift in case of prolonged over voltage. As shown in Figure 2, if this voltage reaches approximately ±1.4V at 25 C, the diodes turn on and current flow is limited by the internal series resistors (R9 and R10). The Absolute Maximum Rating of ±10V differential on V IN still needs to be observed. With temperature variation, the point were the diodes turn on will change at the rate of 5mV/ C. 15
16 LM8261 Application Hints (Continued) FIGURE 2. Input Stage Current vs. Differential Input Voltage B) Output Stage The output stage Figure 1 is comprised of complementary NPN and PNP common-emitter stages to permit voltage swing to within a V CE(SAT) of either supply rail. Q9 supplies the sourcing and Q10 supplies the sinking current load. Output current limiting is achieved by limiting the V CE of Q9 and Q10; using this approach to current limiting, alleviates the draw back to the conventional scheme which requires one V BE reduction in output swing. The frequency compensation circuit includes Miller capacitors from collector to base of each output transistor (see Figure 1, C comp9 and C comp10 ). At light capacitive loads, the high frequency gain of the output transistors is high, and the Miller effect increases the effective value of the capacitors thereby stabilizing the Op Amp. Large capacitive loads greatly decrease the high frequency gain of the output transistors thus lowering the effective internal Miller capacitance - the internal pole frequency increases at the same time a low frequency pole is created at the Op Amp output due to the large load capacitor. In this fashion, the internal doant pole compensation, which works by reducing the loop gain to less than 0dB when the phase shift around the feedback loop is more than 180 C, varies with the amount of capacitive load and becomes less doant when the load capacitor has increased enough. Hence the Op Amp is very stable even at high values of load capacitance resulting in the uncharacteristic feature of stability under all capacitive loads. DRIVING CAPACITIVE LOADS The LM8261 is specifically designed to drive unlimited capacitive loads without oscillations (See Settling Time and Percent Overshoot vs. Cap Load plots in the typical performance characteristics section). In addition, the output current handling capability of the device allows for good slewing characteristics even with large capacitive loads (see Slew Rate vs. Cap Load plots). The combination of these features is ideal for applications such as TFT flat panel buffers, A/D converter input amplifiers, etc. However, as in most Op Amps, addition of a series isolation resistor between the Op Amp and the capacitive load improves the settling and overshoot performance. Output current drive is an important parameter when driving capacitive loads. This parameter will detere how fast the output voltage can change. Referring to the Slew Rate vs. Cap Load Plots (typical performance characteristics section), two distinct regions can be identified. Below about 10,000pF, the output Slew Rate is solely detered by the Op Amp s compensation capacitor value and available current into that capacitor. Beyond 10nF, the Slew Rate is detered by the Op Amp s available output current. Note that because of the lower output sourcing current compared to the sinking one, the Slew Rate limit under heavy capacitive loading is detered by the positive transitions. An estimate of positive and negative slew rates for loads larger than 100nF can be made by dividing the short circuit current value by the capacitor. For the LM8261, the available output current increases with the input overdrive. Referring to Figure 3 and Figure 4, Output Short Circuit Current vs. Input Overdrive, it can be seen that both sourcing and sinking short circuit current increase as input overdrive increases. In a closed loop amplifier configuration, during transient conditions while the fed back output has not quite caught up with the input, there will be an overdrive imposed on the input allowing more output current than would normally be available under steady state condition. Because of this feature, the Op Amp s output stage quiescent current can be kept to a imum, thereby reducing power consumption, while enabling the device to deliver large output current when the need arises (such as during transients) FIGURE 3. Output Short Circuit Sourcing Current vs. Input Overdrive 16
17 Application Hints (Continued) Output Voltage vs. Output Current plot (Typical Performance Characteristics section) can be used to predict the output swing. Figure 6 and Figure 7 show this performance along with several load lines corresponding to loads tied between the output and ground. In each cases, the intersection of the device plot at the appropriate temperature with the load line would be the typical output swing possible for that load. For example, a 1KΩ load can accommodate an output swing to within 250mV of V and to 330mV of V + (V S = ±15V) corresponding to a typical 29.3V PP unclipped swing. LM FIGURE 4. Output Short Circuit Sinking Current vs. Input Overdrive Figure 5 shows the output voltage, output current, and the resulting input overdrive with the device set for A V =+1and the input tied to a 1V PP step function driving a 47nF capacitor. As can be seen, during the output transition, the input overdrive reaches 1V peak and is more than enough to cause the output current to increase to its imum value (see Figure 3 and Figure 4 plots). Note that because of the larger output sinking current compared to the sourcing one, the output negative transition is faster than the positive one FIGURE 6. Output Sourcing Characteristics with Load Lines FIGURE 5. Buffer Amplifier scope photo ESTIMATING THE OUTPUT VOLTAGE SWING It is important to keep in d that the steady state output current will be less than the current available when there is an input overdrive present. For steady state conditions, the FIGURE 7. Output Sinking Characteristics with Load Lines 17
18 LM8261 Application Hints (Continued) TFT APPLICATIONS Figure 8 below, shows a typical application where the LM8261 is used as a buffer amplifier for the V COM signal employed in a TFT LCD flat panel: FIGURE 8. V COM Driver Application Schematic Figure 9 shows the time domain response of the amplifier when used as a V COM buffer/driver with V REF at ground. In this application, the Op Amp loop will try and maintain its output voltage based on the voltage on its non-inverting input (V REF ) despite the current injected into the TFT simulated load. As long as this load current is within the range tolerable by the LM8261 (45mA sourcing and 65mA sinking for ±5V supplies), the output will settle to its final value within less than 2µs the load current. The load portion of the power itself could include an average value (due to a DC load current) and an AC component. DC load current would flow if there is an output voltage offset, or the output AC average current is non-zero, or if the Op Amp operates in a single supply application where the output is maintained somewhere in the range of linear operation. Therefore: P TOTAL =P Q +P DC +P AC P Q =I S V S P DC =I O (V R -V O ) P AC = See Table 1 below Op Amp Quiescent Power Dissipation DC Load Power AC Load Power where: I S : Supply Current V S : Total Supply Voltage (V + -V ) I O : Average load current V O : Average Output Voltage V R :V + for sourcing and V for sinking current Table 1 below shows the imum AC component of the load power dissipated by the Op Amp for standard Sinusoidal, Triangular, and Square Waveforms: FIGURE 9. V COM driver performance scope photo OUTPUT SHORT CIRCUIT CURRENT AND DISSIPATION ISSUES The LM8261 output stage is designed for imum output current capability. Even though momentary output shorts to ground and either supply can be tolerated at all operating voltages, longer lasting short conditions can cause the junction temperature to rise beyond the absolute imum rating of the device, especially at higher supply voltage conditions. Below supply voltage of 6V, output short circuit condition can be tolerated indefinitely. With the Op Amp tied to a load, the device power dissipation consists of the quiescent power due to the supply current flow into the device, in addition to power dissipation due to TABLE 1. Normalized AC Power Dissipated in the Output Stage for Standard Waveforms P AC (W.Ω/V 2 ) Sinusoidal Triangular Square 50.7 x x x 10 3 The table entries are normalized to V 2 S /R L. To figure out the AC load current component of power dissipation, simply multiply the table entry corresponding to the output waveform by the factor V 2 S /R L. For example, with ±15V supplies, a 600Ω load, and triangular waveform power dissipation in the output stage is calculated as: P AC = (46.9 x 10 3 ) [30 2 /600]= 70.4mW 18
19 Other Application Hints The use of supply decoupling is mandatory in most applications. As with most relatively high speed/high output current Op Amps, best results are achieved when each supply line is decoupled with two capacitors; a small value ceramic capacitor ( 0.01µF) placed very close to the supply lead in addition to a large value Tantalum or Aluum (> 4.7µF). The large capacitor can be shared by more than one device if necessary. The small ceramic capacitor maintains low supply impedance at high frequencies while the large capacitor will act as the charge "bucket" for fast load current spikes at the Op Amp output. The combination of these capacitors will provide supply decoupling and will help keep the Op Amp oscillation free under any load. LM8261 ADVANTAGES Compared to other Rail-to-Rail Input/Output devices, the LM8261 offers several advantages such as: Improved cross over distortion. Nearly constant supply current throughout the output voltage swing range and close to either rail. Consistent stability performance for all input/output voltage and current conditions. Nearly constant Unity gain frequency (f u ) and Phase Margin (Phi m ) for all operating supplies and load conditions. No output phase reversal under input overload condition. LM
20 LM8261 Single RRIO, High Output Current & Unlimited Cap Load Op Amp in SOT23-5 Physical Dimensions inches (millimeters) unless otherwise noted 5-Pin SOT23-5 NS Package Number MF05A National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications. For the most current product information visit us at LIFE SUPPORT POLICY NATIONAL S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. BANNED SUBSTANCE COMPLIANCE National Semiconductor manufactures products and uses packing materials that meet the provisions of the Customer Products Stewardship Specification (CSP-9-111C2) and the Banned Substances and Materials of Interest Specification (CSP-9-111S2) and contain no Banned Substances as defined in CSP-9-111S2. Leadfree products are RoHS compliant. National Semiconductor Americas Customer Support Center new.feedback@nsc.com Tel: National Semiconductor Europe Customer Support Center Fax: +49 (0) europe.support@nsc.com Deutsch Tel: +49 (0) English Tel: +44 (0) Français Tel: +33 (0) National Semiconductor Asia Pacific Customer Support Center ap.support@nsc.com National Semiconductor Japan Customer Support Center Fax: jpn.feedback@nsc.com Tel:
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